Quantized adiabatic charge transport in a carbon nanotube

The coupling of a semimetallic carbon nanotube to a surface acoustic wave (SAW) is proposed as a vehicle to realize quantized adiabatic charge transport. We demonstrate that electron backscattering from a periodic SAW potential can be used to induce a miniband spectrum at energies near the Fermi lev...

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Published in:Physical review letters 2001-12, Vol.87 (27 Pt 1), p.276802-276802, Article 276802
Main Authors: Talyanskii, V I, Novikov, D S, Simons, B D, Levitov, L S
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Language:English
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cited_by cdi_FETCH-LOGICAL-c354t-da18c618c443def698638c593db983ad2ef2f75dd98043234c15d932488296113
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container_end_page 276802
container_issue 27 Pt 1
container_start_page 276802
container_title Physical review letters
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creator Talyanskii, V I
Novikov, D S
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description The coupling of a semimetallic carbon nanotube to a surface acoustic wave (SAW) is proposed as a vehicle to realize quantized adiabatic charge transport. We demonstrate that electron backscattering from a periodic SAW potential can be used to induce a miniband spectrum at energies near the Fermi level. Within the framework of Luttinger liquid theory, electron interaction is shown to enhance minigaps and thereby improve current quantization.
doi_str_mv 10.1103/PhysRevLett.87.276802
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title Quantized adiabatic charge transport in a carbon nanotube
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